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e40bb2ba8a5a2e1e88fefde86308e297c91022fd
player/Project_App_Chat/App_Src/drive/flash.c

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初始提交
2025-06-27 00:32:57 +08:00
#include "stm32f4xx.h"
#include "flash.h"
#include "mymem.h"
#include "base.h"
//////////////////////////////////////////////////////////////////////////////////
//本程序只供学习使用,未经作者许可,不得用于其它任何用途
//ALIENTEK战舰STM32开发板
//W25Q64 代码
//正点原子@ALIENTEK
//技术论坛:www.openedv.com
//修改日期:2012/9/9
//版本V1.0
//版权所有,盗版必究。
//Copyright(C) 广州市星翼电子科技有限公司 2009-2019
//All rights reserved
//////////////////////////////////////////////////////////////////////////////////
static u16 SPI_FLASH_Type=W25Q64;//默认就是25Q64
#define W25Q_MOSI PAout(4)
#define W25Q_CLK PAout(5)
#define W25Q_MISO PAin(7)
#define W25Q_CS PCout(3)
void delay_us(u32 us)
{
// us=us*5;
// while (us--);
}
//4Kbytes为一个Sector
//16个扇区为1个Block
//W25X16
//容量为2M字节,共有32个Block,512个Sector
//初始化SPI FLASH的IO口
void SPI_Flash_Init(void)
{
GPIO_InitTypeDef GPIO_InitStructure; //定义结构体
RCC_AHB1PeriphClockCmd ( RCC_AHB1Periph_GPIOA, ENABLE); //初始化GPIOG时钟
RCC_AHB1PeriphClockCmd ( RCC_AHB1Periph_GPIOC, ENABLE); //初始化GPIOD时钟
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT; //输出模式
GPIO_InitStructure.GPIO_OType = GPIO_OType_PP; //推挽输出
GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP; //上拉
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_100MHz; //速度选择
//初始化 LED1 引脚
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_4|GPIO_Pin_5;
GPIO_Init(GPIOA, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_3;
GPIO_Init(GPIOC, &GPIO_InitStructure);
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IN; //输出模式
GPIO_InitStructure.GPIO_OType = GPIO_OType_PP; //推挽输出
GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP; //上拉
GPIO_InitStructure.GPIO_Speed = GPIO_Speed_100MHz; //速度选择
//初始化 LED1 引脚
GPIO_InitStructure.GPIO_Pin = GPIO_Pin_7;
GPIO_Init(GPIOA, &GPIO_InitStructure);
SPI_FLASH_Type=SPI_Flash_ReadID();//读取FLASH ID.
}
u8 W25Q_ReadWriteByte(u8 da)
{
u8 i=0;
u8 ret=0;
for (i=0;i<8;i++)
{
W25Q_CLK=0;
delay_us(5);
if (da&0x80)
W25Q_MOSI=1;
else
W25Q_MOSI=0;
da<<=1;
delay_us(5);
W25Q_CLK=1;
delay_us(5);
ret<<=1;
ret|=W25Q_MISO;
delay_us(5);
}
return ret;
}
//读取SPI_FLASH的状态寄存器
//BIT7 6 5 4 3 2 1 0
//SPR RV TB BP2 BP1 BP0 WEL BUSY
//SPR:默认0,状态寄存器保护位,配合WP使用
//TB,BP2,BP1,BP0:FLASH区域写保护设置
//WEL:写使能锁定
//BUSY:忙标记位(1,忙;0,空闲)
//默认:0x00
u8 SPI_Flash_ReadSR(void)
{
u8 byte=0;
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_ReadStatusReg); //发送读取状态寄存器命令
byte=W25Q_ReadWriteByte(0Xff); //读取一个字节
W25Q_CS=1; //取消片选
return byte;
}
//写SPI_FLASH状态寄存器
//只有SPR,TB,BP2,BP1,BP0(bit 7,5,4,3,2)可以写!!!
void SPI_FLASH_Write_SR(u8 sr)
{
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_WriteStatusReg); //发送写取状态寄存器命令
W25Q_ReadWriteByte(sr); //写入一个字节
W25Q_CS=1; //取消片选
}
//SPI_FLASH写使能
//将WEL置位
void SPI_FLASH_Write_Enable(void)
{
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_WriteEnable); //发送写使能
W25Q_CS=1; //取消片选
}
//SPI_FLASH写禁止
//将WEL清零
void SPI_FLASH_Write_Disable(void)
{
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_WriteDisable); //发送写禁止指令
W25Q_CS=1; //取消片选
}
//读取芯片ID W25X16的ID:0XEF14
u16 SPI_Flash_ReadID(void)
{
u16 Temp = 0;
W25Q_CS=0;
W25Q_ReadWriteByte(0x90);//发送读取ID命令
W25Q_ReadWriteByte(0x00);
W25Q_ReadWriteByte(0x00);
W25Q_ReadWriteByte(0x00);
Temp|=W25Q_ReadWriteByte(0xFF)<<8;
Temp|=W25Q_ReadWriteByte(0xFF);
W25Q_CS=1;
return Temp;
}
//读取SPI FLASH
//在指定地址开始读取指定长度的数据
//pBuffer:数据存储区
//ReadAddr:开始读取的地址(24bit)
//NumByteToRead:要读取的字节数(最大65535)
void SPI_Flash_Read(u8* pBuffer,u32 ReadAddr,u32 NumByteToRead)
{
u16 i;
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_ReadData); //发送读取命令
W25Q_ReadWriteByte((u8)((ReadAddr)>>16)); //发送24bit地址
W25Q_ReadWriteByte((u8)((ReadAddr)>>8));
W25Q_ReadWriteByte((u8)ReadAddr);
for(i=0;i<NumByteToRead;i++)
{
pBuffer[i]=W25Q_ReadWriteByte(0XFF); //循环读数
}
W25Q_CS=1; //取消片选
}
//SPI在一页(0~65535)内写入少于256个字节的数据
//在指定地址开始写入最大256字节的数据
//pBuffer:数据存储区
//WriteAddr:开始写入的地址(24bit)
//NumByteToWrite:要写入的字节数(最大256),该数不应该超过该页的剩余字节数!!!
void SPI_Flash_Write_Page(u8* pBuffer,u32 WriteAddr,u16 NumByteToWrite)
{
u16 i;
SPI_FLASH_Write_Enable(); //SET WEL
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_PageProgram); //发送写页命令
W25Q_ReadWriteByte((u8)((WriteAddr)>>16)); //发送24bit地址
W25Q_ReadWriteByte((u8)((WriteAddr)>>8));
W25Q_ReadWriteByte((u8)WriteAddr);
for(i=0;i<NumByteToWrite;i++)W25Q_ReadWriteByte(pBuffer[i]);//循环写数
W25Q_CS=1; //取消片选
SPI_Flash_Wait_Busy(); //等待写入结束
}
//无检验写SPI FLASH
//必须确保所写的地址范围内的数据全部为0XFF,否则在非0XFF处写入的数据将失败!
//具有自动换页功能
//在指定地址开始写入指定长度的数据,但是要确保地址不越界!
//pBuffer:数据存储区
//WriteAddr:开始写入的地址(24bit)
//NumByteToWrite:要写入的字节数(最大65535)
//CHECK OK
void SPI_Flash_Write_NoCheck(u8* pBuffer,u32 WriteAddr,u32 NumByteToWrite)
{
u16 pageremain;
pageremain=256-WriteAddr%256; //单页剩余的字节数
if(NumByteToWrite<=pageremain)pageremain=NumByteToWrite;//不大于256个字节
while(1)
{
SPI_Flash_Write_Page(pBuffer,WriteAddr,pageremain);
if(NumByteToWrite==pageremain)break;//写入结束了
else //NumByteToWrite>pageremain
{
pBuffer+=pageremain;
WriteAddr+=pageremain;
NumByteToWrite-=pageremain; //减去已经写入了的字节数
if(NumByteToWrite>256)pageremain=256; //一次可以写入256个字节
else pageremain=NumByteToWrite; //不够256个字节了
}
};
}
//写SPI FLASH
//在指定地址开始写入指定长度的数据
//该函数带擦除操作!
//pBuffer:数据存储区
//WriteAddr:开始写入的地址(24bit)
//NumByteToWrite:要写入的字节数(最大65535)
//u8 SPI_FLASH_BUF[4096];
void SPI_Flash_Write(u8* pBuffer,u32 WriteAddr,u32 NumByteToWrite)
{
u32 secpos;
u16 secoff;
u16 secremain;
u16 i;
u8 *SPI_FLASH_BUF=mymalloc(4096);
if (SPI_FLASH_BUF==0)
{
return;
}
mymemset(SPI_FLASH_BUF,0xaa,4096);
secpos=WriteAddr/4096;//扇区地址 0~511 for w25x16
secoff=WriteAddr%4096;//在扇区内的偏移
secremain=4096-secoff;//扇区剩余空间大小
if(NumByteToWrite<=secremain)secremain=NumByteToWrite;//不大于4096个字节
while(1)
{
SPI_Flash_Read(SPI_FLASH_BUF,secpos*4096,4096);//读出整个扇区的内容
for(i=0;i<secremain;i++)//校验数据
{
if(SPI_FLASH_BUF[secoff+i]!=0XFF)break;//需要擦除
}
if(i<secremain)//需要擦除
{
SPI_Flash_Erase_Sector(secpos);//擦除这个扇区
for(i=0;i<secremain;i++) //复制
{
SPI_FLASH_BUF[i+secoff]=pBuffer[i];
}
SPI_Flash_Write_NoCheck(SPI_FLASH_BUF,secpos*4096,4096);//写入整个扇区
}else SPI_Flash_Write_NoCheck(pBuffer,WriteAddr,secremain);//写已经擦除了的,直接写入扇区剩余区间.
if(NumByteToWrite==secremain)break;//写入结束了
else//写入未结束
{
secpos++;//扇区地址增1
secoff=0;//偏移位置为0
pBuffer+=secremain; //指针偏移
WriteAddr+=secremain;//写地址偏移
NumByteToWrite-=secremain; //字节数递减
if(NumByteToWrite>4096)secremain=4096; //下一个扇区还是写不完
else secremain=NumByteToWrite; //下一个扇区可以写完了
}
};
myfree(SPI_FLASH_BUF);
}
//擦除整个芯片
//整片擦除时间:
//W25X16:25s
//W25X32:40s
//W25X64:40s
//等待时间超长...
void SPI_Flash_Erase_Chip(void)
{
SPI_FLASH_Write_Enable(); //SET WEL
SPI_Flash_Wait_Busy();
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_ChipErase); //发送片擦除命令
W25Q_CS=1; //取消片选
SPI_Flash_Wait_Busy(); //等待芯片擦除结束
}
//擦除一个扇区
//Dst_Addr:扇区地址 0~511 for w25x16
//擦除一个山区的最少时间:150ms
void SPI_Flash_Erase_Sector(u32 Dst_Addr)
{
//Dst_Addr*=4096;
SPI_FLASH_Write_Enable(); //SET WEL
SPI_Flash_Wait_Busy();
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_SectorErase); //发送扇区擦除指令
W25Q_ReadWriteByte((u8)((Dst_Addr)>>16)); //发送24bit地址
W25Q_ReadWriteByte((u8)((Dst_Addr)>>8));
W25Q_ReadWriteByte((u8)Dst_Addr);
W25Q_CS=1; //取消片选
SPI_Flash_Wait_Busy(); //等待擦除完成
}
//等待空闲
void SPI_Flash_Wait_Busy(void)
{
while ((SPI_Flash_ReadSR()&0x01)==0x01); // 等待BUSY位清空
}
//进入掉电模式
void SPI_Flash_PowerDown(void)
{
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_PowerDown); //发送掉电命令
W25Q_CS=1; //取消片选
delay_us(3); //等待TPD
}
//唤醒
void SPI_Flash_WAKEUP(void)
{
W25Q_CS=0; //使能器件
W25Q_ReadWriteByte(W25X_ReleasePowerDown); // send W25X_PowerDown command 0xAB
W25Q_CS=1; //取消片选
delay_us(3); //等待TRES1
}
u16 SPI_Flash_GetType (void)
{
return SPI_FLASH_Type;
}
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